tests/bsn_ipmask.py - fabric-oftest - Gitiles

 """
 """
 import struct

 import logging

 import oftest.controller as controller
 import oftest.cstruct as ofp
 import oftest.message as message
 import basic

 from testutils import *

 #@var port_map Local copy of the configuration map from OF port
 # numbers to OS interfaces
 im_port_map = None
 #@var im_logger Local logger object
 im_logger = None
 #@var im_config Local copy of global configuration data
 im_config = None

 # For test priority
 #@var test_prio Set test priority for local tests
 test_prio = {}

 def test_set_init(config):
     basic.test_set_init(config)

     global im_port_map
     global im_logger
     global im_config

     im_logger = logging.getLogger("ipmask")
     im_logger.info("Initializing test set")
     im_port_map = config["port_map"]
     im_config = config

 def normal_ip_mask(index):
     """
     Return the IP mask for the given wildcard index 0 - 63 per the OF 1.0 spec
     """
     if index < 32:
         return ((1 << 32) - 1) ^ ((1 << index) - 1)
     else:
         return 0

 def fancy_ip_mask(index):
     """
     Return the IP mask for the given wildcard index 0 - 31 per the OF 1.0 spec.
     For wildcard index 32 - 63, return a "negative" IP mask:
       32 : wildcard the first bit, mask 127.255.255.255
       33 : wildcard all first 2 bits, mask 63.255.255.255
       ...
       62 : wildcard all but last bit, mask 0.0.0.1
       63 : wildcard all bits, mask 0.0.0.0
     """
     if index < 32:
         return ((1 << 32) - 1) ^ ((1 << index) - 1)
     else:
         return (1 << (63 - index)) - 1

 class BSNConfigIPMask(basic.SimpleDataPlane):
     """
     Exercise BSN vendor extension for configuring IP source/dest match mask
     """
     def bsn_set_ip_mask(self, index, mask):
         """
         Use the BSN_SET_IP_MASK vendor command to change the IP mask for the
         given wildcard index
         """
         m = message.vendor()
         m.vendor = 0x005c16c7
         m.data = struct.pack("!LBBBBL", 0, index, 0, 0, 0, mask)
         rc = self.controller.message_send(m)
         self.assertNotEqual(rc, -1, "Error sending set IP mask command")

     def bsn_get_ip_mask(self, index):
         """
         Use the BSN_GET_IP_MASK vendor command to get the current IP mask for
         the given wildcard index
         """
         m = message.vendor()
         m.vendor = 0x005c16c7
         m.data = struct.pack( "!LBBBBL", 1, index, 0, 0, 0, 0 )
         rc = self.controller.message_send(m)
         self.assertNotEqual(rc, -1, "Error sending get IP mask command")
         m, r = self.controller.poll(ofp.OFPT_VENDOR, 2)
         self.assertEqual(m.vendor, 0x005c16c7, "Wrong vendor ID")
         x = struct.unpack("!LBBBBL", m.data)
         self.assertEqual(x[0], 1, "Wrong subtype")
         self.assertEqual(x[1], index, "Wrong index")
         return x[5]

     def runTest(self):
         for index in range(0, 64):
             mask = self.bsn_get_ip_mask(index)
             im_logger.info("Index %d mask is %s" %
                            (index, scapy.utils.ltoa(mask)))
             self.assertEqual(mask, normal_ip_mask(index), "Unexpected IP mask")

         for index in range(0, 64):
             mask = normal_ip_mask(index)
             if mask == 0:
                 im_logger.info("Skipping IP wildcard index %d" % index)
             else:
                 im_logger.info("Testing IP wildcard index %d" % index)
                 self.check_ip_mask(True, index, mask)
                 self.check_ip_mask(False, index, mask)

         im_logger.info("Setting fancy IP masks")
         for index in range(0, 64):
             self.bsn_set_ip_mask(index, fancy_ip_mask(index))
         for index in range(0, 64):
             mask = self.bsn_get_ip_mask(index)
             im_logger.info("Index %d mask is %s" %
                            (index, scapy.utils.ltoa(mask)))
             self.assertEqual(mask, fancy_ip_mask(index), "Unexpected IP mask")

         for index in range(0, 64):
             mask = fancy_ip_mask(index)
             if mask == 0:
                 im_logger.info("Skipping IP wildcard index %d" % index)
             else:
                 im_logger.info("Testing IP wildcard index %d" % index)
                 self.check_ip_mask(True, index, mask)
                 self.check_ip_mask(False, index, mask)

     def check_ip_mask(self, source, index, mask):
         ports = im_port_map.keys()

         # For each mask we install two flow entries, one which matches
         # on IP source or dest addr all-0s (modulo the mask) and
         # outputs to port 1, the other which matches on all-1s (modulo
         # the mask) and outputs to port 2.

         # Then we construct four packets: The first two are the same
         # as the two flow entry matches (all 0s and all 1s), and we
         # check that the packets go to ports 1 and 2, respectively.
         # For the second set of packets, we flip the un-masked bits
         # and check that only the masked bits are matched.

         ip0 = scapy.utils.ltoa(0x00000000)
         ip1 = scapy.utils.ltoa(0xffffffff)
         ip2 = scapy.utils.ltoa(0xffffffff ^ mask)
         ip3 = scapy.utils.ltoa(0x00000000 ^ mask)

         if source:
            wildcards = ((ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_SRC_MASK)
                         | (index << ofp.OFPFW_NW_SRC_SHIFT))
            pkt0 = simple_tcp_packet(ip_src=ip0)
            pkt1 = simple_tcp_packet(ip_src=ip1)
            pkt2 = simple_tcp_packet(ip_src=ip2)
            pkt3 = simple_tcp_packet(ip_src=ip3)
            msg = lambda ip: im_logger.info("Testing source IP %s" % ip)
         else:
            wildcards = ((ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_DST_MASK)
                         | (index << ofp.OFPFW_NW_DST_SHIFT))
            pkt0 = simple_tcp_packet(ip_dst=ip0)
            pkt1 = simple_tcp_packet(ip_dst=ip1)
            pkt2 = simple_tcp_packet(ip_dst=ip2)
            pkt3 = simple_tcp_packet(ip_dst=ip3)
            msg = lambda ip: im_logger.info("Testing dest IP %s" % ip)

         rc = delete_all_flows(self.controller, im_logger)
         self.assertEqual(rc, 0, "Failed to delete all flows")

         rc = self.controller.message_send(flow_msg_create(
               self, pkt0, ing_port=ports[0], egr_ports=[ports[1]],
               wildcards=wildcards))
         self.assertNotEqual(rc, -1, "Error inserting flow entry 0")
         rc = self.controller.message_send(flow_msg_create(
               self, pkt1, ing_port=ports[0], egr_ports=[ports[2]],
               wildcards=wildcards))
         self.assertNotEqual(rc, -1, "Error inserting flow entry 1")

         self.assertEqual(do_barrier(self.controller), 0, "Barrier failed")

         msg(ip0)
         self.dataplane.send(ports[0], str(pkt0))
         receive_pkt_verify(self, [ports[1]], pkt0, ports[0])

         msg(ip1)
         self.dataplane.send(ports[0], str(pkt1))
         receive_pkt_verify(self, [ports[2]], pkt1, ports[0])

         msg(ip2)
         self.dataplane.send(ports[0], str(pkt2))
         receive_pkt_verify(self, [ports[1]], pkt2, ports[0])

         msg(ip3)
         self.dataplane.send(ports[0], str(pkt3))
         receive_pkt_verify(self, [ports[2]], pkt3, ports[0])

 # Don't run by default
 test_prio["BSNConfigIPMask"] = -1
	"""
	"""
	import struct

	import logging

	import oftest.controller as controller
	import oftest.cstruct as ofp
	import oftest.message as message
	import basic

	from testutils import *

	#@var port_map Local copy of the configuration map from OF port
	# numbers to OS interfaces
	im_port_map = None
	#@var im_logger Local logger object
	im_logger = None
	#@var im_config Local copy of global configuration data
	im_config = None

	# For test priority
	#@var test_prio Set test priority for local tests
	test_prio = {}

	def test_set_init(config):
	basic.test_set_init(config)

	global im_port_map
	global im_logger
	global im_config

	im_logger = logging.getLogger("ipmask")
	im_logger.info("Initializing test set")
	im_port_map = config["port_map"]
	im_config = config

	def normal_ip_mask(index):
	"""
	Return the IP mask for the given wildcard index 0 - 63 per the OF 1.0 spec
	"""
	if index < 32:
	return ((1 << 32) - 1) ^ ((1 << index) - 1)
	else:
	return 0

	def fancy_ip_mask(index):
	"""
	Return the IP mask for the given wildcard index 0 - 31 per the OF 1.0 spec.
	For wildcard index 32 - 63, return a "negative" IP mask:
	32 : wildcard the first bit, mask 127.255.255.255
	33 : wildcard all first 2 bits, mask 63.255.255.255
	...
	62 : wildcard all but last bit, mask 0.0.0.1
	63 : wildcard all bits, mask 0.0.0.0
	"""
	if index < 32:
	return ((1 << 32) - 1) ^ ((1 << index) - 1)
	else:
	return (1 << (63 - index)) - 1

	class BSNConfigIPMask(basic.SimpleDataPlane):
	"""
	Exercise BSN vendor extension for configuring IP source/dest match mask
	"""
	def bsn_set_ip_mask(self, index, mask):
	"""
	Use the BSN_SET_IP_MASK vendor command to change the IP mask for the
	given wildcard index
	"""
	m = message.vendor()
	m.vendor = 0x005c16c7
	m.data = struct.pack("!LBBBBL", 0, index, 0, 0, 0, mask)
	rc = self.controller.message_send(m)
	self.assertNotEqual(rc, -1, "Error sending set IP mask command")

	def bsn_get_ip_mask(self, index):
	"""
	Use the BSN_GET_IP_MASK vendor command to get the current IP mask for
	the given wildcard index
	"""
	m = message.vendor()
	m.vendor = 0x005c16c7
	m.data = struct.pack( "!LBBBBL", 1, index, 0, 0, 0, 0 )
	rc = self.controller.message_send(m)
	self.assertNotEqual(rc, -1, "Error sending get IP mask command")
	m, r = self.controller.poll(ofp.OFPT_VENDOR, 2)
	self.assertEqual(m.vendor, 0x005c16c7, "Wrong vendor ID")
	x = struct.unpack("!LBBBBL", m.data)
	self.assertEqual(x[0], 1, "Wrong subtype")
	self.assertEqual(x[1], index, "Wrong index")
	return x[5]

	def runTest(self):
	for index in range(0, 64):
	mask = self.bsn_get_ip_mask(index)
	im_logger.info("Index %d mask is %s" %
	(index, scapy.utils.ltoa(mask)))
	self.assertEqual(mask, normal_ip_mask(index), "Unexpected IP mask")

	for index in range(0, 64):
	mask = normal_ip_mask(index)
	if mask == 0:
	im_logger.info("Skipping IP wildcard index %d" % index)
	else:
	im_logger.info("Testing IP wildcard index %d" % index)
	self.check_ip_mask(True, index, mask)
	self.check_ip_mask(False, index, mask)

	im_logger.info("Setting fancy IP masks")
	for index in range(0, 64):
	self.bsn_set_ip_mask(index, fancy_ip_mask(index))
	for index in range(0, 64):
	mask = self.bsn_get_ip_mask(index)
	im_logger.info("Index %d mask is %s" %
	(index, scapy.utils.ltoa(mask)))
	self.assertEqual(mask, fancy_ip_mask(index), "Unexpected IP mask")

	for index in range(0, 64):
	mask = fancy_ip_mask(index)
	if mask == 0:
	im_logger.info("Skipping IP wildcard index %d" % index)
	else:
	im_logger.info("Testing IP wildcard index %d" % index)
	self.check_ip_mask(True, index, mask)
	self.check_ip_mask(False, index, mask)

	def check_ip_mask(self, source, index, mask):
	ports = im_port_map.keys()

	# For each mask we install two flow entries, one which matches
	# on IP source or dest addr all-0s (modulo the mask) and
	# outputs to port 1, the other which matches on all-1s (modulo
	# the mask) and outputs to port 2.

	# Then we construct four packets: The first two are the same
	# as the two flow entry matches (all 0s and all 1s), and we
	# check that the packets go to ports 1 and 2, respectively.
	# For the second set of packets, we flip the un-masked bits
	# and check that only the masked bits are matched.

	ip0 = scapy.utils.ltoa(0x00000000)
	ip1 = scapy.utils.ltoa(0xffffffff)
	ip2 = scapy.utils.ltoa(0xffffffff ^ mask)
	ip3 = scapy.utils.ltoa(0x00000000 ^ mask)

	if source:
	wildcards = ((ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_SRC_MASK)
	\| (index << ofp.OFPFW_NW_SRC_SHIFT))
	pkt0 = simple_tcp_packet(ip_src=ip0)
	pkt1 = simple_tcp_packet(ip_src=ip1)
	pkt2 = simple_tcp_packet(ip_src=ip2)
	pkt3 = simple_tcp_packet(ip_src=ip3)
	msg = lambda ip: im_logger.info("Testing source IP %s" % ip)
	else:
	wildcards = ((ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_DST_MASK)
	\| (index << ofp.OFPFW_NW_DST_SHIFT))
	pkt0 = simple_tcp_packet(ip_dst=ip0)
	pkt1 = simple_tcp_packet(ip_dst=ip1)
	pkt2 = simple_tcp_packet(ip_dst=ip2)
	pkt3 = simple_tcp_packet(ip_dst=ip3)
	msg = lambda ip: im_logger.info("Testing dest IP %s" % ip)

	rc = delete_all_flows(self.controller, im_logger)
	self.assertEqual(rc, 0, "Failed to delete all flows")

	rc = self.controller.message_send(flow_msg_create(
	self, pkt0, ing_port=ports[0], egr_ports=[ports[1]],
	wildcards=wildcards))
	self.assertNotEqual(rc, -1, "Error inserting flow entry 0")
	rc = self.controller.message_send(flow_msg_create(
	self, pkt1, ing_port=ports[0], egr_ports=[ports[2]],
	wildcards=wildcards))
	self.assertNotEqual(rc, -1, "Error inserting flow entry 1")

	self.assertEqual(do_barrier(self.controller), 0, "Barrier failed")

	msg(ip0)
	self.dataplane.send(ports[0], str(pkt0))
	receive_pkt_verify(self, [ports[1]], pkt0, ports[0])

	msg(ip1)
	self.dataplane.send(ports[0], str(pkt1))
	receive_pkt_verify(self, [ports[2]], pkt1, ports[0])

	msg(ip2)
	self.dataplane.send(ports[0], str(pkt2))
	receive_pkt_verify(self, [ports[1]], pkt2, ports[0])

	msg(ip3)
	self.dataplane.send(ports[0], str(pkt3))
	receive_pkt_verify(self, [ports[2]], pkt3, ports[0])

	# Don't run by default
	test_prio["BSNConfigIPMask"] = -1